Module Information

Model: RC-TASK2-868

Description: 

ASK/OOK transmitter module with Crystal oscillator.

 

Vdc: 2.2 ÷ 3.6Volt

Current:  21/15mA

Frequency: 868.30MHz​

Power : 10dBm

Dimension: 20.32 x 11.43mm 

Model: RC-TFSK3-434

Description:

433.92MHz FSK Radio Transmitter Module - Standard Pinout .

 

 

Vdc: 2.4 ÷ 3.6Volt

Current: 14.5m

Frequency: 433.92MHz

Powe : 10dBm

Dimension: 20.32 x 11.43mm

 

Model: RC-TFSK4-434

Description :

433.92MHz FSK Transmitter Module - Standard Pinout.

 

 

Vdc: 2.4 ÷ 3.6Volt

Current: 14.5mA

Frequency: 433.92MHz

Power :  10dBm

Dimension: 30.5 x 10.3mm

Reference Schematics

qq.jpeg

New

New

image-781
image-781
image-781
image-781
image-781
logo 2023bianco

facebook
twitter
linkedin
youtube
whatsapp
logo 2023bianco

Download catalog

Follow us on :

Phone : +39 0823 522185

Mobile : +39 333 4156216

sales@radiocontrolli.com

Via Santagata 73

Centro Direzionale Contemporanea

81055 Santa Maria C.V. (CE)

ITALY

 

 


facebook
twitter
linkedin
youtube
whatsapp

. IoT 

© 2021 RadioControlli S.r.l.  VAT IT03939360610 All right reserved.

RC-CC1310F-868

RC-CC1310F-868

Sub 1GHz Multichannels Radio Transceiver module CC1310 based

 

The RC-CC1310F-XXX module is based on Texas Instruments CC1310F128 component more a 16Mbit of serial flash memory.

This device combines a flexible, very low power RF transceiver with a powerful 48 MHz Cortex M3 microcontroller in a platform
supporting multiple physical layers and RF standard.

Compared to the standard module (RC-CC1310-XXX) the "F" version has on board a 16M-bite serial flash memory (GD25Q16CEIG),
programmable through SPI interface already cabled inside.

 

The external flash can be used for :  

-          To store and collect data.

-          Memorize images which at boot time can be loaded into internal

            flash using a boot image manager.

 

There is an application developped on this module (free to use for everyone) where you can verify and make the download of the source in C, see the following hyperlink :  https://github.com/joembedded/JesFs .

 

Datasheet

3D Files

PCB Files

Sub-1Ghz technology is becoming one of the chief driving forces behind the Internet of Things (Iot) the main benefits of this technology are:

The low power consumption has always been the predominant feature of the sub 1GHz applications, with new technologies we consumption in sleep mode of less than 1 uA. The consumption of this device is 5.5mA when receiving and    23.5mA when transmitting at +14dBm (13.4mA at +10dBm) in sleep mode the consumption is 0.6µA (microamps).

The Long Range has become a reality because with new technology you can reach distances of several kilometers in addition, by occupyng the ISM bands in the wireless spectrum belo 1 GHz, this communication avoids the much more crowded band at 2.4 GHZ, where Wi-Fi, Bluetooth, ZigBee and other wireless protocols operate.

The sensitivity parameter is -110dBm at data rates of 50 kbps and down to -124dBm when the data rate is 0.625kbps.Interference from other wireless communications can be overcome with 90dB of blocking. The RF output power levels can reach up to +14dBm. All this ensure a robust signaling for long range communications.

Ready for use  Small Size for SMD mounting (Dimensions 15x 22mm) - Metal shield    

Ta = 25°C unless otherwise specified

(*) Programmable parameter

 

Microcontroller

- Power Arm Cortex - M3

- Up to 48MHz Clock Speed

- 128KB of On-System Programming Flash

- 8KB od SRAM for Cache (or as General-Purpose RAM)

- 20KB of Ultralow Leakege SRAM

- Support Over-the-Air Upgrade (OTA)

 

For more information and details consult the datasheet of the CC1310 chip from Texas Instruments website.

Pin Outs

Mechanical Dimension

Mechanical Dimension

Information Request:

Download Datasheet

Link to Buy Samples

RC-CC1310F-868

Would you be interested in :

RC-CC1310-434RC-CC1310-915RC-CC1312R-868RC-CC1352-868RC-CC1312R-915RC-CC1352-915